Adhesive resin composition

ABSTRACT

An adhesive resin composition is described, comprising: (A) a thermoplastic copolyester resin prepared from (1) a dicarboxylic acid component comprising from 40 to 100 mol % of terephthalic acid and from 0 to 60 mol % of other aromatic dicarboxylic acid and (2) a low molecular weight glycol component comprising from 40 to 100 mol % of 1,4-butanediol and from 0 to 60 mol % of diethylene glycol or 1,6-hexanediol and further from 0 to 10 mol %, based on the total carboxylic acid, of polytetramethylene glycol having a molecular weight of from 600 to 6,000, which has a melting point of from 90° to 160° C. and a reduced viscosity of at least 0.5; and (B) an ethylene copolymer having at least one functional group selected from an epoxy group, a carboxylic acid group, and a dicarboxylic anhydride gruop; and if desired, (C) a thermoplastic resin other than the resin (A), and if further desired, (D) a polyfunctional epoxy compound. This composition exhibits excellent adhesion to synthetic resins such as polyvinyl chloride, polyesters, and polyolefins and also to metals such as aluminum and has excellent adhesive durability against moisture.

This is a continuation of application Ser. No. 674,791 filed Nov. 26,1984, now abandoned.

FIELD OF THE INVENTION

The present invention relates to a novel adhesive resin composition.More particularly, it is concerned with an adhesive resin compositionexhibiting excellent adhesion to synthetic resins such as polyvinylchloride resins, polyester resins and polyolefin resins or metals andalso having excellent adhesive durability against moisture.

BACKGROUND OF THE INVENTION

In general, thermoplastic copolyester resins have excellent flexibilityand weather resistance and also exhibit excellent adhesion to varioussubstrates and therefore, they are widely used as paints or adhesives.It is known that they exhibit excellent adhesion, in particular, tosynthetic resins containing polar groups, such as soft or hard polyvinylchloride resins, polyester resins, polycarbonate resins, ABS resins, andpolyurethane resins. On the contrary, they exhibit no adhesion topolyolefin synthetic resins. It is also known that they exhibit adhesionto metals such as aluminum, lead, iron, and copper, but their adhesionis not always satisfactory as compared with that to synthetic resinscontaining polar groups such as polyvinyl chloride resins.

Another problem of the thermoplastic copolyester resins is that whenthey are used as adhesives to various substrates, their adhesivestrength between the layers of the resulting laminated article decreaseswith a lapse of time because reduction in molecular weight occurs due tohydrolysis. Thus, laminated articles of synthetic resins and/or metalsas produced using the above thermoplastic copolyester resins alone asadhesives are not sufficiently satisfactory in respect to adhesion fromthe practical viewpoint.

It has therefore been desired to develop resins exhibiting good adhesionto all kinds of substrates and also having adhesive durability againstmoisture, with the both being well balanced.

Still another problem of the thermoplastic copolyester resins is thattheir fabrication property is poor. That is, in laminating the polyesterresins on substrates such as films and metals by commonly usedfabrication techniques such as inflation, T-die extrusion, extrusionlamination, and coextrusion, they stick on and attach to a cooling rolland cannot be separated therefrom, which makes the fabricationimpossible. Even if the fabrication is performed when the resulting filmis once wound in the form of a coil and then is intended to againproduce laminated articles by the off-line system, difficulties areencountered in unwinding because of blocking. Thus, the fabricationproperty is still poor. It has therefore been desired to develop resinswhich have excellent fabrication property and cause less film blocking.

SUMMARY OF THE INVENTION

An object of the present invention is to provide an adhesive resincomposition containing a thermoplastic copolyester resin, which exhibitsgood adhesion to metals and synthetic resins such as polyolefin whileretaining good adhesion to synthetic resins containing polar groups asinherent characteristic of the thermoplastic copolyester resins, issuperior in fabrication property, causes less film blocking, and whichis superior in adhesive durability against moisture.

That is, the present invention relates to an adhesive resin compositioncomprising:

(A) a thermoplastic copolyester resin prepared from (1) a dicarboxylicacid component comprising from 40 to 100 mol% of terephthalic acid andfrom 0 to 60 mol% of other aromatic dicarboxylic acid and (2) a lowmolecular weight glycol component comprising from 40 to 100 mol% of1,4-butanediol and from 0 to 60 mol% of diethylene glycol or1,6-hexanediol and further from 0 to 10 mol%, based on the totalcarboxylic acid, of polytetramethylene glycol having a number averagemolecular weight of from 600 to 6,000, which has a melting point of from90° to 160° C. and a reduced viscosity of at least 0.5; and

(B) an ethylene copolymer having at least one functional group selectedfrom an epoxy group, a carboxylic acid group, and a dicarboxylicanhydride group; and if desired,

(C) a different thermosplastic resin; and if further desired,

(D) a polyfunctional epoxy compound.

DETAILED DESCRIPTION OF THE INVENTION

The dicarboxylic acid component used in the preparation of thethermoplastic copolyester resin (A) of the present invention comprisesfrom 40 to 100 mol% of terephthalic acid and from 0 to 60 mol% ofanother aromatic dicarboxylic acid. Typical examples of other aromaticdicarboxylic acids are isophthalic acid, orthophthalic acid, and2,6-naphthalenedicarboxylic acid. Of these compounds, isophthalic acidis most suitable from the industrial standpoint. Aliphatic dicarboxylicacids such as adipic acid may be used in an amount of up to about 10mol%. However, addition of such aliphatic dicarboxylic acids in anamount exceeding about 10 mol% is not desirable since the ultimateproduct is poor in water resistance (resistance against hydrolysis). Ifthe proportion of terephthalic acid is less than 40 mol%, the meltingpoint of the resulting polyester is less than 90° C., which results infailure in anti-blocking properties and ease of workability as inherentcharacteristic of the composition of the present invention.

The low molecular weight glycol component comprises from 40 to 100 mol%of 1,4-butanediol and from 0 to 60 mol% of diethylene glycol or1,6-hexanediol and further from 0 to 10 mol%, based on the totaldicarboxylic acid component, of polytetramethylene glycol having amolecular weight of from 600 to 6,000. If the proportion of1,4-butanediol is less than 40 mol%, the resulting polyester isundesirable because crystallinity decreases and the melting point isless than 90° C.

In the preparation of the thermoplastic copolyester resin (A) of thepresent invention, it is particularly preferred that the dicarboxylicacid component comprises from 60 to 95 mol% of terephthalic acid andfrom 40 to 5 mol% of isophthalic acid, and the low molecular weightglycol component comprises from 55 to 95 mol% of 1,4-butanediol and from45 to 5 mol% of diethylene glycol or 1,6-hexanediol and further from 0.1to 4 mol%, based on the total dicarboxylic acid component, ofpolytetramethylene glycol having a molecular weight of from 600 to6,000. More specifically, the dicarboxylic acid component and the glycolcomponent are freely chosen such that the resulting polyester has amelting point ranging from 90° to 160° C.

As described above, the melting point of the thermoplastic copolyesterresin (A) is from 90° to 160° C. and more preferably, from 100° to 150°C. If the melting point exceeds 160° C., the resulting composition ispoor in adhesion and workability. On the other hand, if it is below 90°C., the resulting composition fails to produce a film free fromblocking.

The thermoplastic copolyester resin (A) suitable for the composition ofthe present invention has a reduced viscosity of at least 0.5. If thereduced viscosity is less than 0.5, not only mechanical properties arereduced whereby no satisfactory adhesion can be obtained, but also thecomposition is poor in anti-blocking properties and ease of workability.

The ethylene copolymer (B) containing at least one functional groupselected from the group consisting of an epoxy group, a carboxylic acidgroup, and a dicarboxylic anhydride group is prepared by copolymerizingethylene and an unsaturated monomer having the above functional group,which is copolymerizable with ethylene, such as α,β-unsaturated glycidylesters, α,β-unsaturated glycidyl ethers, α,β-unsaturated carboxylicacids, and their anhydrides, by known techniques such as high pressureradical polymerization, solution polymerization, and emulsionpolymerization. Typical examples of such unsaturated monomers areglycidyl methacrylate, glycidyl acrylate, allyl glycidyl ether,2-methylallyl glycidyl ether, acrylic acid, methacrylic acid, maleicacid, fumaric acid, itaconic acid, maleic anhydride, itaconic anhydride,and endo-cis-bicyclo(2:2:1)-5-heptene-2,3-dicarboxylic anhydride.

The amount of the unsaturated monomer added is from about 0.01 to 20mol% and preferably from about 0.1 to 10 mol%.

In addition, copolymers resulting from graft polymerization of anunsaturated monomer having the above described functional group ontoethylene homopolymer or copolymer, as described in Japanese PatentPublication Nos. 18392/62 and 30546/77 and Japanese Patent Application(OPI) Nos. 147792/83 and 66391/76 (the term "OPI" as used herein means a"published unexamined Japanese patent application") can be used.

As the ethylene copolymer (B) used in the present invention, copolymersproduced by copolymerization or graft polymerization of, as a thirdcomponent, unsaturated ester monomers such as unsaturated carboxylicacid esters (e.g., methyl acrylate, ethyl acrylate, methyl methacrylate,and butyl acrylate) or unsaturated vinyl esters (e.g., vinyl acetate andvinyl propionate) can also be used in addition to the above describedcomponents.

The melt index of the ethylene copolymer (B) is chosen within such arange that the resulting composition is readily moldable. It is usuallyfrom 0.1 to 300 g/10 min and preferably from 0.5 to 50 g/10 min.

Most preferred as the ethylene copolymer (B) are epoxy group-containingethylene copolymers.

Preferred examples of the different thermoplastic resin (C) used in thepresent invention are ethylene polymers, polyolefin elastomers, vinylaromatic hydrocarbon polymers or copolymers, and (meth)acrylate polymersor copolymers. These polymers can be used singly or in combination.

The ethylene polymer which is one example of the thermoplastic resin (C)is at least one polymer selected from polyethylene andethylene/unsaturated ester copolymers. These polymers can be produced byknown techniques without specific restrictions, such as high pressureradical polymerization, solvent polymerization, and solutionpolymerization. Typical examples of the ethylene/unsaturated estercopolymers are ethylene/vinyl ester copolymers such as an ethylene/vinylacetate copolymer and an ethylene/vinyl propionate copolymer, andethylene/unsaturated carboxylic acid ester copolymers such as anethylene/methyl methacrylate copolymer, an ethylene/methyl acrylatecopolymer, an ethylene/ethyl acrylate copolymer, and an ethylene/butylacrylate copolymer. When the ethylene polymer is the copolymer, theethylene content is at least 50 mol% and a preferably from 70 to 99mol%. The melt index of the ethylene polymer is from 0.01 to 300 g/10min and preferably from 0.1 to 80 g/10 min.

Typical examples of the polyolefin elastomer which is also one exampleof the thermoplastic resin (C) are an ethylene/propylene copolymerrubber, an ethylene/propylene/non-conjugated diene copolymer rubber, anethylene/butene copolymer rubber, an ethylene/isobutylene copolymerrubber, and atactic polypropylene. Of these polymers, anethylene/propylene copolymer rubber, anethylene/propylene/non-conjugated diene copolymer rubber, and anethylene/butene copolymer rubber are particularly preferred.

The vinyl aromatic hydrocarbon polymer which is further one example ofthe thermoplastic resin (C) includes homo- and copolymers of vinylaromatic hydrocarbons having from 8 to 20 carbon atoms and particularly,from 8 to 12 carbon atoms. Specific examples are polystyrene,poly-α-methylstyrene, polyvinyl toluene, poly-β-methylstyrene, astyrene/acrylonitrile copolymer, and a styrene/acrylonitrile/butadienecopolymer. Of these polymers, polystyrene is preferred.

The (meth)acrylate polymer which is even further one example of thethermoplastic resin (C) is homo- and copolymers of monomers representedby the following general formula: ##STR1## wherein R₁ is a hydrogen atomor a methyl group, and R₂ is an alkyl group having from 1 to 4 carbonatoms. Specific examples are polymethyl acrylate, polymethylmethacrylate, polyethyl acrylate, polybutyl acrylate, and a methylmethacrylate/butyl acrylate copolymer. Most preferred are polymethylmethacrylate and copolymers made mainly from methyl methacrylate. Inaddition, copolymers produced from the above monomers and otherunsaturated monomers such as styrene and acrylonitrile can be used.

In addition, as the thermoplastic resin (C), polyisobutylene,polyisoprene, polybutadiene, a styrene/butadiene random copolymer, astyrene/butadiene block copolymer, and natural rubber can be used.

The polyfunctional epoxy compound (D) used in the present inventionincludes those of glycidyl ether type as prepared from epichlorohydrinor methylepichlorohydrin and compounds having at least two hydroxylgroups. Typical examples are a condensate of4,4'-dihydroxydiphenyl-2,2'-propane (bisphenol A) and epichlorohydrin, adiglycidyl ether of bisphenol A, polyglycidyl ethers resulting fromreaction of novolak-type phenol condensates, as prepared by condensationof phenolic compounds such as phenol and cresol, and formaldehyde, withepichlorohydrin, a triglycidyl ether of glycerine, and a diglycidylether of polyethylene glycol. The polyfunctional epoxy compound (D)further includes those of glycidyl ester type as prepared fromepichlorohydrin or methylepichlorohydrin and compounds having at leasttwo carboxyl groups or their anhydrides. Typical examples are diglycidylesters of aromatic dibasic acids such as phthalic acid, isophthalicacid, terephthalic acid, tetrahydrophthalic acid, and hexahydrophthalicacid, diglycidyl esters of aliphatic dibasic acids such as succinic acidand adipic acid, diglycidyl esters of dimer acids (dicarboxylic acidshaving 36 carbon atoms in average), and esters resulting from thereaction of acid anhydrides such as phthalic anhydride, maleicanhydride, trimellitic anhydride, and pyromellitic anhydride, withepichlorohydrin.

In addition, epoxidized products of polybutadiene and diepoxidizedproducts of dicyclopentadiene can be used. These polyfunctional epoxycompounds are commercially available under trade names, for example,Epikote (Shell Chemical Co., Ltd.) and Sumiepoxy (Sumitomo Chemical Co.,Ltd.) and are widely used as starting materials for the usual epoxyresins. The polyfunctional epoxy compounds can be used singly or incombination.

The adhesive resin composition of the present invention contains thethermoplastic copolyester resin (A) in a proportion of from 40 to 80% byweight and preferably from 50 to 70% by weight. The total amount of theethylene copolymer (B) and the thermoplastic resin (C) is from 60 to 20%by weight and preferably from 50 to 30% by weight. The proportion of theethylene copolymer (B) in the total of the ethylene copolymer (B) andthe thermoplastic resin (C) is from 5 to 100 % by weight and preferablyfrom 10 to 80% by weight.

The amount of the polyfunctional epoxy compound (D) added is from 0 to20 parts by weight and preferably from 1 to 10 parts by weight, per 100parts by weight of the total of the components (A), (B) and (C).

If the component (A) is less than 40% by weight and the total amount ofthe components (B) and (C) exceeds 60% by weight, the adhesion of theresulting composition to polar group-containing synthetic resins,particularly a soft polyvinyl chloride resin, is seriously reduced; thatis, the inherent characteristic of the component (A) is lost. If thetotal amount of the components (B) and (C) is less than 20% by weightand the component (A) exceeds 80% by weight, not only an improvement inadhesion to metals cannot be attained, but also extrusion moldability ofthe component (A) and blocking properties of the ultimate film cannot beimproved. If the component (B) is not added, the resulting compositionis poor in compatibility and its adhesion to various substratesdecreases. Moreover, if the amount of the component (D) added exceeds 20parts by weight, the ultimate film readily causes blocking and thus isnot suitable for practical use.

With respect to the adhesive resin composition of the present invention,improved effects can be observed by the composition of only thethermoplastic copolyester resin (A) and the ethylene copolymer (B), butimproved effects attained by a composition containing one or more of thethermoplastic resin (C) and the polyfunctional epoxy compound (D) inaddition to the components (A) and (B) are greater.

That is, the addition of the component (C) is remarkably effective inimproving the blocking properties of film and adhesion to metals. Of theresins of the component (C), the ethylene polymers are particularlysuitable to control fluidity of the resulting composition during thefilm molding process. The addition of the vinyl aromatic hydrocarbonpolymers, (meth)acrylate polymers, or polyolefin elastomers is effectivein improving the adhesion to metals and the blocking properties of theultimate film. If, however, the amounts of these compounds added are toohigh, the fluidity during the film molding process and the film strengthdecrease. Thus, it is preferred to combine them with the ethylenepolymers in a suitable ratio.

Moreover, if the component (D) is added, the adhesion to metals andadhesive durability against moisture are more markedly improved.

The adhesive resin composition of the present invention can be producedby melt kneading the above components by the use of, e.g., a monoaxialextruder, a biaxial extruder, a Bumbury's mixer, and a heated roll. Thecomponents may be mixed at the same time, or they may be mixed one byone. The temperature necessary for the melt kneading is from 100° to 25°C., and the sufficient time is from 80 seconds to 10 minutes.

To the adhesive resin composition of the present invention, if desired,stabilizers such as antioxidants and ultraviolet absorbers, lubricants,inorganic fillers, surface active agents, antistatic agents, copperdeactirator, flame retardants, foaming agents, colorants such aspigments, plasticizers, and the like can be added.

The adhesive resin composition of the present invention can be used foradhesion to olefin polymers such as polyethylene, anethylene/unsaturated ester copolymer, polypropylene, anethylene/α-olefin copolymer, and olefin polymers containing functionalgroups such as an epoxy group, a carboxylic acid group or a dicarboxylicacid (anhydride) group, etc.; halogen-containing polymers such as avinyl chloride resin, a vinylidene chloride resin, a copolymer of vinylchloride with vinyl acetate, vinylidene chloride, or a acrylate-typemonomer, a vinyl chloride-grafted ethylene/vinyl acetate copolymer, achlorinated polyolefin, a chlorosulfonated polyolefin, anethylene/tetrafluoroethylene copolymer, and anethylene/hexafluoropropylene copolymer; synthetic resins such aspolyester resin, polyamide, a saponified product of an ethylene/vinylacetate copolymer, an ABS resin, a polycarbonate resin, a polyurethaneresin, etc.; metals such as aluminum, iron, nickel, zinc, lead, copper,and chromium, glass, procelain, paper, wood, etc. In particular, itexhibits good adhesion to both synthetic resins such as a soft or hardpolyvinyl chloride resin, a polyester resin, an ABS resin, apolycarbonate resin, and a polyurethane resin, and metals such asaluminum, iron, lead, and copper.

The adhesive resin composition of the present invention has an excellentfabrication property. Thus, it can be fabricated by techniques commonlyused for plastics, such as inflation, T-die extrusion, and extrusionlamination. Furthermore, the thus-produced film less causes blocking.

There are no particular restrictions with respect to the method ofproducing laminated articles using the adhesive resin composition of thepresent invention, and any suitable techniques such as a laminationprocess, a coating process, or a combination thereof can be applied. Forexample, a method in which the adhesive resin composition of the presentinvention is interposed in the form of, for example, film, sheet,powder, or pellets, between two substrates, followed by heating attemperatures higher than the melting point of the composition and pressbonding, and a method in which the adhesive resin composition of thepresent invention is coated on one substrate by an extrusion coatingprocess, a dry lamination process, a coextrusion molding process, or aprocess comprising applying in the form of powder of a solution followedby heating and, thereafter, another substrate is superposed on theformer substrate, heated at temperatures higher than the melting pointof the composition, and press bonded can be employed. The adhesion isgenerally carried out at a temperature of from 70° to 250° C.

Moreover, the adhesive resin composition of the present invention can beused as an adhesive layer for metal wrapped-cables (for communicationand transmission of electricity) of aluminum, lead, or copper in which asheath layer is made of a soft polyvinyl chloride resin. Thus, theadhesive resin composition of the present invention is industrially verymeaningful.

The present invention is described in greater detail with reference tothe following examples, although it is not intended to be limitedthereto.

Physical properties were measured as follows.

(1) Melting point of thermoplastic copolyester resin (A):

A resin sample extended and shaped in a string form was set up in amelting point-measuring apparatus equipped with a polarizationmicroscope such that the strings were placed at right angles each other.When the temperature was gradually elevated, a temperature at which thepolarized image disappeared was read and determined as the melting pointof the resin.

(2) Reduced viscosity of thermoplastic copolyester resin (A):

With respect to a solution of a resin sample dissolved in aphenol/tetrachloroethane (60:40 by weight) mixed solvent (concentration:0.1 g/25 ml), a dropping time (in seconds) was measured using anUbbelohde's viscometer to calculate the reduced viscosity.

(3) Extrusion moldability:

A 50 to 60 micron thick film was fabricated by the use of a 20 mm φT-die extruder (manufactured by Tanabe Plastic Co., Ltd.) maintained at170° C. During this film fabrication process, the condition in which thefilm sticked or attached to the cooling roll was examined. The ratingused for evaluation was as follows:

X: The film attaches to the cooling roll and the fabrication isimpossible.

Δ: The film somewhat attaches to the cooling roll.

○ : No attachment of the film to the cooling roll occurs.

(4) Blocking property of film:

A 50 to 60 micron thick film was fabricated in the same manner as in (3)above and then wound in the form of coil. The thus-wound film wasallowed to stand for one day. Then it was unwound, and easiness ofunwinding was evaluated. The rating used for evaluation was as follows.

X: It is very difficult to unwind.

Δ: It is somewhat difficult to unwind.

○ : The unwinding is very easy.

(5) Adhesion between soft polyvinyl chloride resin and aluminum(S-PVC/Al)--adhesive durability against moisture:

A 50 to 60 micron thick film of the adhesive resin composition wasinterposed between a soft polyvinyl chloride resin (S-PVC) sheet andsoft aluminum (Al), and adhesion was effected under conditions oftemperature of 180° C., time of 5 minutes, and pressure of 10 kg/cm².The thus-produced sheet was cut to prepare a 10 mm wide test piece. Thistest piece was soaked in hot water maintained at 70° C. for a giventime. Then, the peeling strength of the resulting test piece wasmeasured at a tensile speed of 100 mm/min in the condition that thealuminum plate was bent at an angle of 180°.

(6) Adhesion to polyethylene terephthalate resin:

A 50 to 60 micron thick film of the adhesive resin film was interposedbetween films of Lumirror (polyester film manufactured by TorayIndustries, Inc., thickness: 75 microns), and adhesion was effectedunder conditions of temperature of 180° C., time of 5 minutes, andpressure of 10 kg/cm². The thus-produced sheet was cut to prepare a 10mm wide test piece. Then the peeling strength of the resulting testpiece was measured at a tensile speed of 100 mm/min in the conditionthat one of the Lumirror films was bent at an angle of 180°.

The substrates used in the above adhesion tests were as follows.

Soft aluminum: JIS-H4000, A-1050R-O (150μ thick tape)

Soft polyvinyl chloride resin: A mixture of 100 parts by weight ofSumilit SX-13 (a polyvinyl chloride resin, manufactured by SumitomoChemical Co., Ltd.), 60 parts by weight of dioctyl terephthalate, 10parts by weight of calcium carbonate, 3 parts by weight of tribasic leadsulfate, and 1 part by weight of dibasic lead phosphite was kneaded at150° C. for 5 minutes by means of a roll and then extruded in a 2 mmthick sheet.

PREPARATION EXAMPLE Preparation of Thermoplastic Copolyester Resins

In a reaction vessel equipped with a stirrer, a thermometer, and areflux condenser were placed 582 parts by weight of dimethylterephthalate, 194 parts by weight of dimethyl isophthalate, 108 partsby weight of 1,4-butanediol, 85 parts by weight of diethylene glycol, 40parts by weight of polytetramethylene glycol having a molecular weightof 1,000, and 0.42 part by weight of titanium tetrabutoxide, and themixture was subjected to an ester exchange reaction at 160° to 210° C.for 4 hours.

Then the reaction temperature was raised to 250° C. and the pressure wasreduced to 5 mmHg over 40 minutes. A polycondensation reaction wasconducted under a reduced pressure of 0.3 mmHg or less over 90 minutes.

The thus-prepared copolyester resin (A-) had a melting point of 124° C.and a reduced viscosity of 0.88. NMR analysis showed that thecopolyester resin was a polycondensate of a dicarboxylic acid componentconsisting of 75 mol% of terephthalic acid and 25 mol% of isophthalicacid and a glycol component consisting of 64 mol% of 1,4-butanediol, 35mol% of diethylene glycol, and 1 mol% of polytetramethylene glycol.

In the same manner as above, copolyester resins of the present invention((A-2) to (A-4)) and comparative polyester resins ((A-5) to (A-10)) wereprepared. The monomer compositions and characteristics of thecopolyester resins are shown in Table 1.

                                      TABLE 1                                     __________________________________________________________________________                       Resins of the                                                                 Present Invention Comparative Resins                                          (A-1)                                                                              (A-2)                                                                             (A-3)                                                                              (A-4)                                                                             (A-5)                                                                             (A-6)                                                                             (A-7)                                                                              (A-8)                                                                             (A-9)                                                                              (A-10)             __________________________________________________________________________    Dicarboxylic Acid Component (mol %)                                           Terephthalic Acid  75   85  65   60  70  75  30   75  60   100                Isophthalic Acid   25   15  35   40  30  25  70   25  --   --                 Adipic Acid        --   --  --   --  --  --  --   --  40   --                 Glycol Component (mol %)                                                      1,4-Butanediol     64   56  78   58  100 64  65   --  70   100                1,6-Hexanediol     --   --  --   39  --  --  --   --  --   --                 Diethylene Glycol  35   41  22           35  35   100 30   --                 Polytetramethylene Glycol                                                                         1    3  --    3  --   1  --   --  --   --                 Characteristic Values                                                         Reduced Viscosity (dl/g)                                                                         0.88 1.10                                                                              0.92 0.90                                                                              0.80                                                                              0.32                                                                              0.95 0.85                                                                              1.12 0.75               Melting Point (°C.)                                                                       124  136 116  130 178 123 *    *   115  243                __________________________________________________________________________     Note:                                                                         *The melting point was difficult to measure because of low crystallinity;     it was indefinite.                                                       

EXAMPLES 1 TO 6 AND COMPARATIVE EXAMPLES 1 TO 5

The copolyester resin (A-2) as shown in Table 1, copolymer (B-1), as anepoxy group-containing ethylene copolymer, having a melt index of 7 g/10min, a glycidyl methacrylate content of 10% by weight, and a vinylacetate content of 5% by weight, and an ethylene/vinyl acetate copolymer(C-1) having a melt index of 6 g/10 min and a vinyl acetate content of10% by weight or Esbrite 8 (C-2) (polystyrene, manufactured by NipponPolystyrene Kogyo Co., Ltd.) were mixed in a ratio as shown in Table 2,and then again granulated at 190° C. by the use of a 30 mm φ extruder.The thus-prepared adhesive resin composition was fabricated into a 50 to60 micron thick film by the use of a 20 mm φ T-die extruder. This filmwas tested for the adhesion, and the results are shown in Table 2.

As comparative examples, the same procedure as above was carried outexcept that (A-2) and (B-1) were used alone, (B-1) was not added, andthe copolyester resin (A-9) as shown in Table 1 was used. The resultsare shown in Table 2.

                                      TABLE 2                                     __________________________________________________________________________                                       Adhesive Durability                                                      Blocking                                                                           against Moisture                                  Composition (wt %)                                                                             Extrusion                                                                           of   (kg/cm)                                           (A-2)                                                                             (A-9)                                                                             (B-1)                                                                            (C-1)                                                                            (C-2)                                                                            Moldability                                                                         Film 0 day                                                                             10 days                                                                           20 days                            __________________________________________________________________________    Example 1                                                                            80  --  20 --  1 ○                                                                             ○ ˜Δ                                                           2.1 2.1 2.0                                Example 2                                                                            70  --  30 -- -- ○                                                                             ○ ˜Δ                                                           2.2 2.4 1.8                                Example 3                                                                            70  --  10 20 -- ○                                                                            ○                                                                           2.6 2.5 2.0                                Example 4                                                                            60  --  10 30 -- ○                                                                            ○                                                                           1.8 1.3 1.3                                Example 5                                                                            70  --  10  5 15 ○                                                                            ○                                                                           2.3 1.9 1.8                                Example 6                                                                            60  --  10 15 15 ○                                                                            ○                                                                           2.2 1.7 1.7                                Comparative                                                                          100 --  -- -- -- Δ˜X                                                                     --.sup.(1)                                                                         1.2.sup.(1)                                                                       1.1.sup.(1)                                                                       1.1.sup.(1)                        Example 1                                                                     Comparative                                                                          60  --  -- 40 -- ○                                                                            ○                                                                           1.2 --  --                                 Example 2                                                                     Comparative                                                                          --  70  30 -- -- Δ                                                                             Δ                                                                            2.0 0.5 0.2                                Example 3                                                                     Comparative                                                                          --  60  10 15 15  ○ ˜Δ                                                             ○ ˜Δ                                                           2.3 0.8 0.2                                Example 4                                                                     Comparative                                                                          --  --  100                                                                              -- -- ○                                                                            ○                                                                           0.2 --  --                                 Example 5                                                                     __________________________________________________________________________     .sup.(1) Evaluation was conducted using a pressmolded film since film         unwinding was impossible.                                                

EXAMPLES 7 TO 9 AND COMPARATIVE EXAMPLES 6 TO 8

A mixture of 65% by weight of the copolymer resin (A-1), (A-3), or (A-4)as shown in Table 1, 10% by weight of (B-1) used in Example 1, and 25%by weight of (C-1) used in Example 1 was evaluated in the same manner asin Example 1. The results are shown in Table 3.

As comparative examples, the same procedure as above was repeated exceptthat the copolyester resins (A-1), (A-3) and (A-4) were each used alone.The results are shown in Table 3.

                                      TABLE 3                                     __________________________________________________________________________                             Adhesive Durability                                                      Blocking                                                                           against Moisture                                            Copolyester                                                                          Extrusion                                                                           of   (kg/cm)                                                     Resin  Moldability                                                                         Film 0 day                                                                             10 days                                                                           20 days                                      __________________________________________________________________________    Example 7                                                                            (A-1)  ○                                                                            ○                                                                           2.4 2.3 2.0                                          Example 8                                                                            (A-3)  ○                                                                            ○                                                                           2.2 2.0 1.8                                          Example 9                                                                            (A-4)  ○                                                                            ○                                                                           2.4 2.2 2.1                                          Comparative                                                                          (A-1)  Δ˜X                                                                     --.sup.(1)                                                                         --  --  --                                           Example 6                                                                     Comparative                                                                          (A-3)  Δ˜X                                                                     --.sup.(1)                                                                         --  --  --                                           Example 7                                                                     Comparative                                                                          (A-4)  Δ˜X                                                                     --.sup.(1)                                                                         --  --  --                                           Example 8                                                                     __________________________________________________________________________     .sup.(1) Film unwinding was impossible.                                  

COMPARATIVE EXAMPLES 9 TO 11

The same procedure of Example 7 was repeated except that the copolyesterresin (A-6), (A-7) or (A-8) was used alone. The results are shown inTable 4.

                                      TABLE 4                                     __________________________________________________________________________                             Adhesive Durability                                                      Blocking                                                                           against Moisture                                            Copolyester                                                                          Extrusion                                                                           of   (kg/cm)                                                     Resin  Moldability                                                                         Film 0 day                                                                             10 days                                                                           20 days                                      __________________________________________________________________________    Comparative                                                                          (A-6)  Δ                                                                             Δ                                                                            1.0 0.8 0.8                                          Example 9                                                                     Comparative                                                                          (A-7)  Δ˜X                                                                     --.sup.(1)                                                                         --  --  --                                           Example 10                                                                    Comparative                                                                          (A-8)  Δ˜X                                                                     --.sup.(1)                                                                         --  --  --                                           Example 11                                                                    __________________________________________________________________________     .sup.(1) Film unwinding was impossible.                                  

The composition prepared using the copolyester resin having a reducedviscosity of 0.32 exhibited only very low adhesion. With thecompositions prepared using the copolyester resins having a low meltingpoint, the ultimate films readily caused blocking; they are not suitablefor practical use.

COMPARATIVE EXAMPLES 12 AND 13

A mixture of 70% by weight of the copolyester resin (A-5) or (A-10) asshown in Table 1, 10% by weight of (B-1) used in Example 1, and 20% byweight of (C-1) used in Example 1 was prepared and again granulated at250° C. by the use of a 30 mm φ extruder. The thus-prepared compositionwas fabricated into a 50 to 60 micron thick film by the use of a 20 mm φT-die extruder.

Using this film, adhesion was carried out under conditions oftemperature of 180° C., time of 5 minutes, and pressure of 10 kg/cm².For both the compositions containing (A-5) and (A-10), the adhesivedurability against moisture was 0 kg/cm. When the adhesion was conductedunder conditions of temperature of 250° C., time of 5 minutes, andpressure of 10 kg/cm², the adhesive durability against moisture was 0.9kg/cm for the composition containing (A-5), and 0.4 kg/cm for thecomposition containing (A-10). That is, they exhibited very lowadhesion.

EXAMPLES 10 TO 14

A mixture of 65% by weight of the copolyester resin (A-2) as shown inTable 1, 25% by weight of (C-1) used in Example 1, and 10% by weight ofan ethylene copolymer (B) as shown in Table 5 was prepared and evaluatedin the same manner as in Example 1. The results are shown in Table 5.

                                      TABLE 5                                     __________________________________________________________________________                              Adhesive Durability                                                      Blocking                                                                           against Moisture                                    Ethylene       Extrusion                                                                           of   (kg/cm)                                             Copolymer (B).sup.(1)                                                                        Moldability                                                                         Film 0 day                                                                             10 days                                                                           20 days                                     __________________________________________________________________________    Example 10                                                                          (B-2)    ○                                                                            ○                                                                           2.0 2.1 1.5                                         Example 11                                                                          (B-3)    ○                                                                            ○                                                                           2.3 2.3 2.2                                         Example 12                                                                          (B-4)    ○                                                                            ○                                                                           1.8 1.8 1.5                                         Example 13                                                                          (B-5)    ○                                                                            ○                                                                           1.6 1.7 1.4                                         Example 14                                                                          (B-6)    ○                                                                            ○                                                                           1.8 1.8 1.6                                         __________________________________________________________________________     .sup.(1) (B2): Ethylene copolymer having a glycidyl methacrylate content      of 12% by weight                                                              (B3): Ethylene copolymer having a glycidyl methacrylate content of 16% by     weight and a vinyl acetate content of 6% by weight                            (B4): Polymer resulting from graft polymerization of 0.15% by weight of       maleic anhydride to an ethylene/vinyl acetate copolymer having a vinyl        acetate content of 8% by weight                                               (B5): Ethylene/acrylic acid copolymer having an acrylic acid content of 8     by weight                                                                     (B6): Ethylene/acrylic acid/tertbutyl acrylate copolymer having an acryli     acid content of 3% by weight and a tertbutyl acrylate content of 8% by        weight                                                                   

EXAMPLES 15 TO 20

A mixture of copolyester resin (A-2) as shown in Table 1, 10% by weightof (B-1) used in Example 1, and 25% by weight of a thermoplastic resin(C) as shown in Table 6 was prepared and evaluated in the same manner asin Example 1. The results are shown in Table 6. For all thecompositions, extrusion moldability and blocking of film were good: " ○".

                  TABLE 6                                                         ______________________________________                                                            Adhesive Durability                                                           Against Moisture                                          Thermoplastic Resin.sup.(1)                                                                       (kg/cm)                                                   (C)                 0 day   10 days  20 days                                  ______________________________________                                        Example 15                                                                            (C-1):10, (C-3):15                                                                            2.2     2.1    1.9                                    Example 16                                                                            (C-4):25        2.1     2.2    1.9                                    Example 17                                                                            (C-1):10, (C-4):15                                                                            2.0     2.0    1.8                                    Example 18                                                                            (C-1):10, (C-5):15                                                                            1.9     1.9    1.5                                    Example 19                                                                            (C-1):10, (C-6):15                                                                            1.9     1.8    1.5                                    Example 20                                                                            (C-1):10, (C-7):15                                                                            1.9     1.9    1.7                                    ______________________________________                                         .sup.(1) (C1): Ethylene/vinyl acetate copolymer (vinyl acetate content:       10% by weight)                                                                (C3): Polymethyl methacrylate resin (Sumipex B LO6, produced by Sumitomo      Chemical Co., Ltd.)                                                           (C4): Low density polyethylene (melt index: 7 g/10 min)                       (C5): 1,2Polybutadiene (JSR RB820, produced by Japan Synthetic Rubber Co.     Ltd.)                                                                         (C6): Ethylene/butene copolymer rubber (Tafmer A4090, produced by Mitsui      Petrochemical Industries, Ltd.)                                               (C7): Ethylene/propylene copolymer rubber (Tafmer P0180, produced by          Mitsui Petrochemical Industries, Ltd.)                                   

EXAMPLES 21 TO 25 AND COMPARATIVE EXAMPLE 14

Films produced from the compositions of Examples 3, 4, 5, 6, and 14 weretested for the adhesive durability against moisture according toprocedure as described below.

For comparison, a film produced from the composition of ComparativeExample 4 was evaluated in the same manner as above.

The results are shown in Table 7.

Evaluation Method

A soft polyvinyl chloride resin sheet (2 mm)/film of the composition (50to 60μ)/epoxy group-containing ethylene copolymer (*) film (50μ)/softaluminum (200μ) structure was prepared and bonded together underconditions of temperature of 180° C., time of 5 minutes, and pressure of10 kg/cm². The thus-prepared laminate was cut to produce a 10 mm widetest piece. This test piece was then soaked in hot water maintained at70° C. for a given period of time, and its peeling strength was measuredat a tensile speed of 100 mm/min in the condition that the soft aluminumwas bent at an angle of 180°.

                  TABLE 7                                                         ______________________________________                                                         Adhesive Durability                                                           Against Moisture                                                    Adhesive Resin                                                                          (kg/cm)                                                             Composition                                                                             0 day     10 days 20 days                                    ______________________________________                                        Example 21                                                                             Example 3   4.4       5.6   5.8                                      Example 22                                                                             Example 4   4.8       4.6   2.6                                      Example 23                                                                             Example 5   4.0       3.9   3.7                                      Example 24                                                                             Example 6   4.8       4.6   3.0                                      Example 25                                                                             Example 14  4.9       5.1   5.1                                      Comparative                                                                            Comparative 5.8       1.4   0.3                                      Example 14                                                                             Example 4                                                            ______________________________________                                    

EXAMPLES 26 TO 34 AND COMPARATIVE EXAMPLES 15 TO 19

The copolyester resin (A-2), an ethylene copolymer (B-1) having a meltindex of 7 g/10 min, a glycidyl methacrylate content of 10% by weight,and a vinyl acetate content of 5% by weight, an ethylene/vinyl acetatecopolymer (C-1) having a melt index of 6 g/10 min, and a vinyl acetatecontent of 10% by weight, or polystyrene (C-2) (Esbrite, produced byNippon Polystyrene Kogyo Co., Ltd.), and a polyfunctional epoxy compound(D-1) (Sumiepoxy ESCN-220 HH, produced by Sumitomo Chemical Co., Ltd.;o-cresol novolak-type epoxy resin having a softening point of 89° C. andan epoxy equivalent of 216) were mixed in a ratio as shown in Table 8and again granulated by the use of a 30 mm φ extruder. The thus-preparedadhesive resin composition was fabricated into a 50 to 60 micron thickfilm at 170° C. by the use of a 20 mm φ T-die extruder. This film wastested for adhesion, and the results are shown in Table 8.

As comparative examples, the above procedure was repeated except that(A-2) and (B-1) were each used alone, an (A-2)/(D-1) mixture and a(B-1)/(D-1) mixture were each used, the composition of Example 28 notcontaining (B-1) was used, and the comparative copolyester resin (A-9)of Table 1 was used in place of (A-2) in Example 28.

The results are shown in Table 8.

                                      TABLE 8                                     __________________________________________________________________________                                              Adhesive Durability                                                      Blocking                                                                           against Moisture                           Composition (wt %)      Extrusion                                                                           of   (kg/cm)                                    (A-2)                                                                             (A-9)                                                                             (B-1)                                                                             (C-1)                                                                             (C-2)                                                                             (D-1)                                                                             Moldability                                                                         Film 0 day                                                                             20 days                                                                           40 days                     __________________________________________________________________________    Example 26                                                                           70  --  30  --  --  5   ○                                                                             ○ ˜Δ                                                           3.7 3.0 2.9                         Example 27                                                                           70  --  20  10  --  5   ○                                                                             ○ ˜Δ                                                           3.3 3.0 2.7                         Example 28                                                                           65  --  10  25  --  5   ○                                                                            ○                                                                           3.2 2.6 2.4                         Example 29                                                                           65  --  20  15  --  5   ○                                                                            ○                                                                           3.9 3.1 3.1                         Example 30                                                                           65  --  10  10  15  5   ○                                                                            ○                                                                           2.9 1.9 1.6                         Example 31                                                                           50  --  10  40  --  5   ○                                                                            ○                                                                           2.2 1.9 1.5                         Example 32                                                                           65  --  10  25  --  1   ○                                                                            ○                                                                           2.3 2.2 1.3                         Example 33                                                                           65  --  10  25  --  10   ○ ˜Δ                                                             ○ ˜Δ                                                           3.9 2.8 2.4                         Example 34                                                                           65  --  10  25  --  --  ○                                                                            ○                                                                           2.2 1.8 0.8                         Comparative                                                                          100 --  --  --  --  5   X     --   2.0.sup.(1)                                                                       1.7.sup.(1)                                                                       1.7.sup.(1)                 Example 15                                                                    Comparative                                                                          100 --  --  --  --  --  Δ˜X                                                                     --   1.2.sup.(1)                                                                       1.1.sup.(1)                                                                       1.1.sup.(1)                 Example .sup.(1)                                                              Comparative                                                                          --  --  100 --  --  5   ○                                                                            ○                                                                           0.2 --  --                          Example 16                                                                    Comparative                                                                          --  --  100 --  --  --  ○                                                                            ○                                                                           0.2 --  --                          Example 17                                                                    Comparative                                                                          65  --  --  35  --  5   ○                                                                            ○                                                                           1.3 --  --                          Example 18                                                                    Comparative                                                                          --  65  10  10  15  5    ○ ˜Δ                                                             ○ ˜Δ                                                           2.3 0.7 0.3                         Example 19                                                                    __________________________________________________________________________     .sup.(1) A press molded film was used for evaluation since the                aboveprepared film was impossible to unwind.                             

EXAMPLES 35 TO 40

The procedure of Example 28 was repeated except that the copolyesterresin (A-2) as shown in Table 1 was replaced by (A-1), (A-3), or (A-4)(Examples 35 to 37). The results are shown in Table 9.

The procedure of Example 28 was also repeated except that thepolyfunctional epoxy compound (D-1) was not added (Examples 38 to 40).The results are shown in Table 9.

When a copolyester resin is used alone, the resulting composition is notsatisfactory in extrusion moldability and film blocking. That is, asshown in Comparative Examples 6 and 7, extrusion moldability was Δ˜X andwith regard to film blocking, the film was impossible to unwind.

                                      TABLE 9                                     __________________________________________________________________________                            Adhesive Durability                                                      Blocking                                                                           against Moisture                                      Copolyester  Extrusion                                                                           of   (kg/cm)                                               Resin        Moldability                                                                         Film 0 day                                                                             10 days                                                                           20 days                                       __________________________________________________________________________    Example 35                                                                          (A-1)  ○                                                                            ○                                                                           3.1 2.5 2.0                                           Example 36                                                                          (A-3)  ○                                                                            ○                                                                           3.0 2.6 1.9                                           Example 37                                                                          (A-4)  ○                                                                            ○                                                                           3.2 2.5 2.2                                           Example 38                                                                          (A-1)  ○                                                                            ○                                                                           2.4 2.0 0.9                                           Example 39                                                                          (A-3)  ○                                                                            ○                                                                           2.2 1.8 0.6                                           Example 40                                                                          (A-4)  ○                                                                            ○                                                                           2.4 2.1 0.9                                           __________________________________________________________________________

COMPARATIVE EXAMPLES 20 TO 22

The procedure of Example 28 was repeated except that the copolyesterresin (A-2) was replaced by (A-6), (A-7) or (A-8). The results were asfollows.

Adhesive resin composition containing (A-6) with a low reduced viscosityof 0.32:

Extrusion moldability: Δ

Blocking of film: Δ

Adhesive durability against moisture: 0 day . . . 1.0 kg/cm, 20 days . .. 0.9 kg/cm

That is, the composition exhibited very low adhesion.

Adhesive resin composition containing (A-7) or (A-8) with a low meltingpoint:

Extrusion moldability: Δ˜X

Blocking of film: The film was impossible to unwind and is not suitablefor practical purposes.

COMPARATIVE EXAMPLES 23 AND 24

In Example 27, the copolyester resin (A-2) as shown in Table 1 wasreplaced by comparative resins (A-5) or (A-10). That is, the comparativeresin (A-5) or (A-10) was mixed in the same ratio as in Example 27, andagain granulated at 250° C. by the use of a 30 mm φ extruder. Theresulting composition was fabricated into a 50 to 60 micron thick filmat 250° C. by the use of a 20 mm φ T-die extruder. Adhesion was carriedout under the usual conditions of temperature of 180° C., time of 5minutes, and pressure of 10 kg/cm². For both the compositions, theadhesive durability against moisture was 0 kg/cm; that is, they did notexhibit adhesion at all. The results obtained under the conditions oftemperature of 250° C., time of 5 minutes, and pressure of 10 kg/cm²were as follows.

Composition containing (A-5) . . . 1.3 kg/cm

Composition containing (A-10) . . . 1.0 kg/cm

That is, they exhibited only very low adhesion.

EXAMPLES 41 TO 50

The procedure of Example 28 was repeated except that the ethylenecopolymer (B-1) was replaced by (B-2), (B-3), (B-4), (B-5), or (B-6)(Examples 41 to 45). The results are shown in Table 10.

The results obtained when the polyfunctional epoxy compound (D-1) wasnot added (Examples 46 to 50) are also shown in Table 10.

For the compositions of Examples 41 to 50, extrusion moldability andfilm blocking were good: " ○ ".

                  TABLE 10                                                        ______________________________________                                                           Adhesive Durability                                                           Against Moisture                                           Type of Ethylene   (kg/cm)                                                    Copolymer.sup.(1)  0 day   20 days   40 days                                  ______________________________________                                        Example 41                                                                            (B-2)          2.6     2.4     1.8                                    Example 42                                                                            (B-3)          3.1     2.4     2.0                                    Example 43                                                                            (B-4)          2.3     1.9     1.1                                    Example 44                                                                            (B-5)          2.1     2.0     1.0                                    Example 45                                                                            (B-6)          2.3     2.0     1.3                                    Example 46                                                                            (B-2)          2.0     1.5     0.6                                    Example 47                                                                            (B-3)          2.3     2.2     0.9                                    Example 48                                                                            (B-4)          1.8     1.5     0.3                                    Example 49                                                                            (B-5)          1.6     1.4     0.2                                    Example 50                                                                            (B-6)          1.8     1.6     0.4                                    ______________________________________                                         .sup.(1) See Table 5.                                                    

EXAMPLES 51 TO 62

The procedure of Example 28 was repeated except that the thermoplasticresin (C-1) was replaced by (C-4), or a mixture of 10 parts by weight of(C-1) and 15 parts by weight of (C-3), (C-5), (C-6) or (C-7) (Examples51 to 56). The results are shown in Table 11.

The results obtained when the epoxy compound (D-1) used in Examples 51to 56 was not added (Examples 57 to 62) are shown also in Table 11.

For all the compositions of Examples 51 to 62, extrusion moldability andfilm blocking were good: " ○ ".

                  TABLE 11                                                        ______________________________________                                                         Adhesive Durability                                                 Type of   Against Moisture                                                    Thermoplastic                                                                           (kg/cm)                                                             Resin.sup.(1)                                                                           0 day     20 days 40 days                                    ______________________________________                                        Example 51                                                                             (C-4)       2.5       2.0   1.5                                      Example 52                                                                             (C-1)/(C-4) 2.5       2.0   1.8                                      Example 53                                                                             (C-1)/(C-3) 2.7       2.3   2.0                                      Example 54                                                                             (C-1)/(C-5) 2.2       2.0   1.3                                      Example 55                                                                             (C-1)/(C-6) 2.1       1.9   1.0                                      Example 56                                                                             (C-1)/(C-7) 2.2       1.9   1.2                                      Example 57                                                                             (C-4)       2.1       1.9   0.6                                      Example 58                                                                             (C-1)/(C-4) 2.0       1.8   0.3                                      Example 59                                                                             (C-1)/(C-3) 2.2       1.9   0.8                                      Example 60                                                                             (C-1)/(C-5) 1.9       1.5   0.2                                      Example 61                                                                             (C-1)/(C-6) 1.9       1.5   0.3                                      Example 62                                                                             (C-1)/(C-7) 1.9       1.7   0.3                                      ______________________________________                                         .sup.(1) See Table 6.                                                    

EXAMPLES 63 TO 65

The procedure of Example 28 was repeated except that a polyfunctionalepoxy compound (D-2) (Sumiepoxy ESA-014, bisphenol A-type epoxy resinhaving an epoxy equivalent of 960, produced by Sumitomo Chemical Co.,Ltd.) was used in place of the polyfunctional epoxy compound (D-1) in anamount as shown in Table 12. The results are shown in Table 12.

                                      TABLE 12                                    __________________________________________________________________________                              Adhesive Durability                                                      Blocking                                                                           against Moisture                                    Amount of (D-2)                                                                              Extrusion                                                                           of   (kg/cm)                                             (parts by weight)                                                                            Moldability                                                                         Film 0 day                                                                             20 days                                                                           40 days                                     __________________________________________________________________________    Example 63                                                                          1        ○                                                                            ○                                                                           2.3 1.8 1.2                                         Example 64                                                                          5         ○ ˜Δ                                                             ○ ˜Δ                                                           2.6 2.3 1.7                                         Example 65                                                                          10        ○ ˜Δ                                                            ○                                                                           3.4 2.3 2.0                                         __________________________________________________________________________

EXAMPLES 66 TO 73 AND COMPARATIVE EXAMPLES 25 TO 28

Films producing using the compositions of Examples 28 to 33, 64 and 34were evaluated for adhesive durability against moisture. The results areshown in Table 13.

For comparison, films produced using the compositions of ComparativeExamples 15, 16, 18, and 19 were also evaluated for adhesive durabilityagainst moisture. The results are shown in Table 13.

Evaluation Method

A soft polyvinyl chloride resin sheet (2 mm)/film of the composition (50to 60μ)/epoxy group-containing ethylene copolymer (*) film (50μ)/softaluminum (200μ) structure was prepared and bonded together underconditions of temperature of 180° C., time of 5 minutes, and pressure of10 kg/cm². The thus-prepared laminate was cut to produce a 10 mm widetest piece. This test piece was soaked in hot water maintained at 70° C.for a given period of time, and then its peeling strength was measuredat a tensile speed of 100 mm/min in the condition that the soft aluminumwas bent at an angle of 180°.

                  TABLE 13                                                        ______________________________________                                                           Adhesive Durability                                                           against Moisture                                                   Adhesive Resin                                                                           (kg/cm)                                                            Composition                                                                              0 day   20 days   40 days                                  ______________________________________                                        Example 66                                                                              Example 28   4.2     4.8     3.1                                    Example 67                                                                              Example 29   5.1     5.0     3.9                                    Example 68                                                                              Example 30   3.9     3.2     2.4                                    Example 69                                                                              Example 31   4.5     3.9     3.9                                    Example 70                                                                              Example 32   4.5     3.0     1.8                                    Example 71                                                                              Example 33   3.8     3.5     3.1                                    Example 72                                                                              Example 64   5.0     3.4     2.7                                    Example 73                                                                              Example 34   4.4     2.8     1.0                                    Comparative                                                                             Comparative  0       --      --                                     Example 25                                                                              Example 15                                                          Comparative                                                                             Comparative  0       --      --                                     Example 26                                                                              Example 16                                                          Comparative                                                                             Comparative  1.0     --      --                                     Example 27                                                                              Example 18                                                          Comparative                                                                             Comparative  5.3     0.3     0.1                                    Example 28                                                                              Example 19                                                          ______________________________________                                    

EXAMPLES 74 AND 75

A film produced using the composition of Example 28 was evaluated foradhesion to a polyethylene terephthalate film. The adhesive durabilityagainst moisture was 2.2 kg/cm.

In the same manner as above, a film of the composition of Example 34 wasevaluated for adhesion to a polyethylene terephthalate film. Theadhesive durability against moisture was 1.0 kg/cm.

While the invention has been described in detail and with reference tospecific embodiments thereof, it will be apparent to one skilled in theart that various changes and modifications can be made therein withoutdeparting from the spirit and scope thereof.

What is claimed is:
 1. An adhesive resin composition comprising from 40to 80% by weight of component (A) and from 20 to 60% by weight ofcomponent (B), wherein said component (A) is a thermoplastic copolyesterresin prepared from (1) a dicarboxylic acid component comprising from 60to 95 mol% of terephthalic acid and from 5 to 40 mol% of isophthalicacid and (2) a low molecular weight glycol component comprising from 55to 95% of 1,4-butanediol and from 5 to 45 mol% of diethylene glycol andfurther from 0.1 to 4 mol%, based on the total carboxylic acid, ofpolytetramethylene glycol having a number average molecular weight offrom 600 to 6,000, which has a melting point of from 100° to 150° C. anda reduced viscosity of at least 0.5; and said component (B) is acopolymer of ethylene and 0.01 to 20 mol% of an unsaturated monomerhaving at least one functional group selected from the group consistingof an epoxy group, a carboxylic acid group, and a dicarboxylic anhydridegroup.